#!/usr/bin/env python # # Public Domain 2014-2016 MongoDB, Inc. # Public Domain 2008-2014 WiredTiger, Inc. # # This is free and unencumbered software released into the public domain. # # Anyone is free to copy, modify, publish, use, compile, sell, or # distribute this software, either in source code form or as a compiled # binary, for any purpose, commercial or non-commercial, and by any # means. # # In jurisdictions that recognize copyright laws, the author or authors # of this software dedicate any and all copyright interest in the # software to the public domain. We make this dedication for the benefit # of the public at large and to the detriment of our heirs and # successors. We intend this dedication to be an overt act of # relinquishment in perpetuity of all present and future rights to this # software under copyright law. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, # EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF # MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. # IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR # OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, # ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR # OTHER DEALINGS IN THE SOFTWARE. import os import wiredtiger, wttest from suite_subprocess import suite_subprocess # test_jsondump.py # Test dump output from json cursors. class test_jsondump02(wttest.WiredTigerTestCase, suite_subprocess): table_uri1 = 'table:jsondump02a.wt' table_uri2 = 'table:jsondump02b.wt' table_uri3 = 'table:jsondump02c.wt' basename_uri4 = 'jsondump02d.wt' table_uri4 = 'table:' + basename_uri4 table_uri5 = 'table:jsondump02e.wt' table_uri6 = 'table:jsondump02f.wt' def set_kv(self, uri, key, val): cursor = self.session.open_cursor(uri, None, None) try: cursor[key] = val finally: cursor.close() def set_kv2(self, uri, key, val1, val2): cursor = self.session.open_cursor(uri, None, None) try: cursor[key] = (val1, val2) finally: cursor.close() # Populate table_uri4 with squares and cubes of row numbers def populate_squarecube(self, uri): cursor = self.session.open_cursor(uri, None, None) for i in range(1, 5): square = i * i cube = square * i cursor[(i, 'key' + str(i))] = \ ('val' + str(square), square, 'val' + str(cube), cube) cursor.close() # Check the result of using a JSON cursor on the URI. def check_json(self, uri, expect): cursor = self.session.open_cursor(uri, None, 'dump=json') pos = 0 for k,v in cursor: self.assertEqual(k, expect[pos][0]) self.assertEqual(v, expect[pos][1]) pos += 1 self.assertEqual(pos, len(expect)) cursor.close() # Check the result of using a JSON cursor on the URI. def load_json(self, uri, inserts): cursor = self.session.open_cursor(uri, None, 'dump=json') pos = 0 try: for insert in inserts: cursor[insert[0]] = insert[1] finally: cursor.close() def test_json_cursor(self): """ Create JSON cursors and test them directly, also test dump/load commands. """ extra_params = ',allocation_size=512,' +\ 'internal_page_max=16384,leaf_page_max=131072' self.session.create(self.table_uri1, 'key_format=S,value_format=S' + extra_params) self.session.create(self.table_uri2, 'key_format=S,value_format=8tS' + extra_params) self.session.create(self.table_uri3, 'key_format=r,value_format=u' + extra_params) self.session.create(self.table_uri4, "key_format=iS,value_format=SiSi," "columns=(ikey,Skey,S1,i2,S3,i4),colgroups=(c1,c2)") cg = 'colgroup:' + self.basename_uri4 self.session.create(cg + ":c1", "columns=(S1,i2)") self.session.create(cg + ":c2", "columns=(S3,i4)") uri4index1 = 'index:' + self.basename_uri4 + ':by-Skey' uri4index2 = 'index:' + self.basename_uri4 + ':by-S3' uri4index3 = 'index:' + self.basename_uri4 + ':by-i2i4' self.session.create(uri4index1, "columns=(Skey)") self.session.create(uri4index2, "columns=(S3)") self.session.create(uri4index3, "columns=(i2,i4)") self.set_kv(self.table_uri1, 'KEY000', 'string value') self.set_kv(self.table_uri1, 'KEY001', '\'\"({[]})\"\'\\, etc. allowed') # \u03c0 is pi in Unicode, converted by Python to UTF-8: 0xcf 0x80. # Here's how UTF-8 might be used. self.set_kv(self.table_uri1, 'KEY002', u'\u03c0'.encode('utf-8')) # 0xf5-0xff are illegal in Unicode, but may occur legally in C strings. self.set_kv(self.table_uri1, 'KEY003', '\xff\xfe') self.set_kv2(self.table_uri2, 'KEY000', 123, 'str0') self.set_kv2(self.table_uri2, 'KEY001', 234, 'str1') self.set_kv(self.table_uri3, 1, '\x01\x02\x03') self.set_kv(self.table_uri3, 2, '\x77\x88\x99\x00\xff\xfe') self.populate_squarecube(self.table_uri4) table1_json = ( ('"key0" : "KEY000"', '"value0" : "string value"'), ('"key0" : "KEY001"', '"value0" : ' + '"\'\\\"({[]})\\\"\'\\\\, etc. allowed"'), ('"key0" : "KEY002"', '"value0" : "\\u00cf\\u0080"'), ('"key0" : "KEY003"', '"value0" : "\\u00ff\\u00fe"')) self.check_json(self.table_uri1, table1_json) self.session.truncate(self.table_uri1, None, None, None) self.load_json(self.table_uri1, table1_json) self.check_json(self.table_uri1, table1_json) table2_json = ( ('"key0" : "KEY000"', '"value0" : 123,\n"value1" : "str0"'), ('"key0" : "KEY001"', '"value0" : 234,\n"value1" : "str1"')) self.check_json(self.table_uri2, table2_json) self.session.truncate(self.table_uri2, None, None, None) self.load_json(self.table_uri2, table2_json) self.check_json(self.table_uri2, table2_json) self.session.truncate(self.table_uri2, None, None, None) # bad tokens self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('<>abc?', '9'),)), '/unknown token/') # bad tokens self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"abc\u"', ''),)), '/invalid Unicode/') # bad tokens self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"abc', ''),)), '/unterminated string/') # bad syntax self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"stuff" "jibberish"', '"value0" "more jibberish"'),)), '/expected key name.*\"key0\"/') # bad types self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"key0" : "KEY002"', '"value0" : "xyz",\n"value1" : "str0"'),)), '/expected unsigned JSON , got /') # bad types self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"key0" : "KEY002"', '"value0" : 123,\n"value1" : 456'),)), '/expected JSON , got /') # extra stuff self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"key0" : "KEY002"', '"value0" : 123,\n"value1" : "str0",'),)), '/expected JSON , got \',\'/') # fields out of order currently not supported self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"key0" : "KEY002"', '"value1" : "str0",\n"value0" : 123'),)), '/expected value name.*\"value0\"/') # various invalid unicode invalid_unicode = ( '\\u', '\\ux', '\\u0', '\\u0F', '\\u0FA', '\\u0FAx', '\\u0FA\\x') for uni in invalid_unicode: self.assertRaisesWithMessage(wiredtiger.WiredTigerError, lambda: self.load_json(self.table_uri2, (('"key0" : "KEY002"', '"value0" : 123,\n"value1" : "' + uni + '"'),)), '/invalid Unicode/') # this one should work self.load_json(self.table_uri2, (('"key0" : "KEY002"', '"value0" : 34,\n"value1" : "str2"'),)) # extraneous/missing space is okay self.load_json(self.table_uri2, ((' "key0"\n:\t"KEY003" ', '"value0":45,"value1"\n\n\r\n:\t\n"str3"'),)) table2_json = ( ('"key0" : "KEY002"', '"value0" : 34,\n"value1" : "str2"'), ('"key0" : "KEY003"', '"value0" : 45,\n"value1" : "str3"')) table3_json = ( ('"key0" : 1', '"value0" : "\\u0001\\u0002\\u0003"'), ('"key0" : 2', '"value0" : "\\u0077\\u0088\\u0099\\u0000\\u00ff\\u00fe"')) self.check_json(self.table_uri3, table3_json) table4_json = ( ('"ikey" : 1,\n"Skey" : "key1"', '"S1" : "val1",\n"i2" : 1,\n"S3" : "val1",\n"i4" : 1'), ('"ikey" : 2,\n"Skey" : "key2"', '"S1" : "val4",\n"i2" : 4,\n"S3" : "val8",\n"i4" : 8'), ('"ikey" : 3,\n"Skey" : "key3"', '"S1" : "val9",\n"i2" : 9,\n"S3" : "val27",\n"i4" : 27'), ('"ikey" : 4,\n"Skey" : "key4"', '"S1" : "val16",\n"i2" : 16,\n"S3" : "val64",\n"i4" : 64')) self.check_json(self.table_uri4, table4_json) # The dump config currently is not supported for the index type. self.check_json(uri4index1, ( ('"Skey" : "key1"', '"S1" : "val1",\n"i2" : 1,\n"S3" : "val1",\n"i4" : 1'), ('"Skey" : "key2"', '"S1" : "val4",\n"i2" : 4,\n"S3" : "val8",\n"i4" : 8'), ('"Skey" : "key3"', '"S1" : "val9",\n"i2" : 9,\n"S3" : "val27",\n"i4" : 27'), ('"Skey" : "key4"', '"S1" : "val16",\n"i2" : 16,\n"S3" : "val64",\n"i4" : 64'))) self.check_json(uri4index2, ( ('"S3" : "val1"', '"S1" : "val1",\n"i2" : 1,\n"S3" : "val1",\n"i4" : 1'), ('"S3" : "val27"', '"S1" : "val9",\n"i2" : 9,\n"S3" : "val27",\n"i4" : 27'), ('"S3" : "val64"', '"S1" : "val16",\n"i2" : 16,\n"S3" : "val64",\n"i4" : 64'), ('"S3" : "val8"', '"S1" : "val4",\n"i2" : 4,\n"S3" : "val8",\n"i4" : 8'))) self.check_json(uri4index3, ( ('"i2" : 1,\n"i4" : 1', '"S1" : "val1",\n"i2" : 1,\n"S3" : "val1",\n"i4" : 1'), ('"i2" : 4,\n"i4" : 8', '"S1" : "val4",\n"i2" : 4,\n"S3" : "val8",\n"i4" : 8'), ('"i2" : 9,\n"i4" : 27', '"S1" : "val9",\n"i2" : 9,\n"S3" : "val27",\n"i4" : 27'), ('"i2" : 16,\n"i4" : 64', '"S1" : "val16",\n"i2" : 16,\n"S3" : "val64",\n"i4" : 64'))) # Dump all the tables into a single file, and also each # table into its own file. self.runWt(['dump', '-j', self.table_uri1, self.table_uri2, self.table_uri3, self.table_uri4], outfilename='jsondump-all.out') self.runWt(['dump', '-j', self.table_uri1], outfilename='jsondump1.out') self.runWt(['dump', '-j', self.table_uri2], outfilename='jsondump2.out') self.runWt(['dump', '-j', self.table_uri3], outfilename='jsondump3.out') self.runWt(['dump', '-j', self.table_uri4], outfilename='jsondump4.out') self.session.drop(self.table_uri1) self.session.drop(self.table_uri2) self.session.drop(self.table_uri3) self.session.drop(self.table_uri4) self.runWt(['load', '-jf', 'jsondump1.out']) self.session.drop(self.table_uri1) self.runWt(['load', '-jf', 'jsondump2.out']) self.session.drop(self.table_uri2) self.runWt(['load', '-jf', 'jsondump3.out']) self.session.drop(self.table_uri3) self.runWt(['load', '-jf', 'jsondump4.out']) self.session.drop(self.table_uri4) self.runWt(['load', '-jf', 'jsondump-all.out']) self.check_json(self.table_uri1, table1_json) self.check_json(self.table_uri2, table2_json) self.check_json(self.table_uri3, table3_json) self.check_json(self.table_uri4, table4_json) # Generate two byte keys that cover some range of byte values. # For simplicity, the keys are monotonically increasing. # A null byte is disallowed in a string key, so we don't use it. def generate_key(self, i, k): k[0] = ((i & 0xffc0) >> 6) + 1 k[1] = (i & 0x3f) + 1 # Generate three byte values: # i==0 : v:[0x00, 0x01, 0x02] # i==1 : v:[0x01, 0x02, 0x03] # etc. # A null byte is disallowed in a string value, it is replaced by 'X' def generate_value(self, i, v, isstring): for j in range(0, 3): val = (i + j) % 256 if isstring and val == 0: val = 88 # 'X' v[j] = val def test_json_all_bytes(self): """ Test the generated JSON for all byte values in byte array and string formats. """ self.session.create(self.table_uri5, 'key_format=u,value_format=u') self.session.create(self.table_uri6, 'key_format=S,value_format=S') c5 = self.session.open_cursor(self.table_uri5, None, None) c6 = self.session.open_cursor(self.table_uri6, None, None) k = bytearray(b'\x00\x00') v = bytearray(b'\x00\x00\x00') for i in range(0, 512): self.generate_key(i, k) self.generate_value(i, v, False) c5[str(k)] = str(v) self.generate_value(i, v, True) # no embedded nuls c6[str(k)] = str(v) c5.close() c6.close() # Build table5_json, we want it to look like this: # ('"key0" : "\u0001\u0001"', '"value0" : "\u0000\u0001\u0002"'), # ('"key0" : "\u0001\u0002"', '"value0" : "\u0001\u0002\u0003"')) # ('"key0" : "\u0001\u0003"', '"value0" : "\u0003\u0003\u0004"')) # ... # table6_json is similar, except that printable values like '\u0041' # would appear as 'A'. The string type cannot have embedded nulls, # so '\u0000' in table6_json appears instead as an 'X'. # # Start by creating two tables of individual Unicode values. # bin_unicode[] contains only the \u escape sequences. # mix_unicode[] contains printable characters or \t \n etc. escapes bin_unicode = [] mix_unicode = [] for i in range(0, 256): u = "\\u00" + hex(256 + i)[3:] # e.g. "\u00ab") bin_unicode.append(u) mix_unicode.append(u) for i in range(0x20, 0x7f): mix_unicode[i] = chr(i) mix_unicode[ord('"')] = '\\"' mix_unicode[ord('\\')] = '\\\\' mix_unicode[ord('\f')] = '\\f' mix_unicode[ord('\n')] = '\\n' mix_unicode[ord('\r')] = '\\r' mix_unicode[ord('\t')] = '\\t' table5_json = [] table6_json = [] for i in range(0, 512): self.generate_key(i, k) self.generate_value(i, v, False) j = i if (i > 0 and i < 254) or (i > 256 and i < 510) else 88 table5_json.append(('"key0" : "' + bin_unicode[k[0]] + bin_unicode[k[1]] + '"', '"value0" : "' + bin_unicode[v[0]] + bin_unicode[v[1]] + bin_unicode[v[2]] + '"')) self.generate_value(i, v, True) table6_json.append(('"key0" : "' + mix_unicode[k[0]] + mix_unicode[k[1]] + '"', '"value0" : "' + mix_unicode[v[0]] + mix_unicode[v[1]] + mix_unicode[v[2]] + '"')) self.check_json(self.table_uri5, table5_json) self.check_json(self.table_uri6, table6_json) self.session.truncate(self.table_uri5, None, None, None) self.session.truncate(self.table_uri6, None, None, None) self.load_json(self.table_uri5, table5_json) self.load_json(self.table_uri6, table6_json) self.check_json(self.table_uri5, table5_json) self.check_json(self.table_uri6, table6_json) self.runWt(['dump', '-j', self.table_uri5], outfilename='jsondump5.out') self.runWt(['dump', '-j', self.table_uri6], outfilename='jsondump6.out') self.session.drop(self.table_uri5) self.session.drop(self.table_uri6) self.runWt(['load', '-jf', 'jsondump5.out']) self.runWt(['load', '-jf', 'jsondump6.out']) self.session.drop(self.table_uri5) self.session.drop(self.table_uri6) if __name__ == '__main__': wttest.run()